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Moisture-driven CO
2
pump for direct air capture
Jennifer L. Wade
, Horacio Lopez Marques
, Winston Wang
, Justin Flory
, Benny Freeman
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
18
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Scopus citations
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2
pump for direct air capture'. Together they form a unique fingerprint.
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Keyphrases
Anion Exchange Membrane
50%
Bicarbonate
50%
Carbon Dioxide
50%
Carbon Dioxide CO2
50%
Charged Polymers
50%
Chemical Separation
50%
Chemical Transport
50%
CO2 Separation
50%
Commercial Membranes
50%
Design Recovery
50%
Diffusion Limit
50%
Direct Air Capture
100%
Driving Method
50%
Dry Air
50%
Energetic Cost
50%
Energetic Demand
50%
Energy Efficient
50%
Equilibrium Properties
50%
Global Warming
50%
Humidity
50%
Ionic Transport
50%
Mass Transport
50%
Membrane Separation
50%
Moisture
50%
Moisture Sensitivity
100%
Moisture-dependent
100%
Monetary Cost
50%
Negative Carbon Emission
50%
Peak Performance
50%
Polymer Design
50%
Reactive Transport
50%
Recovery Mechanism
50%
Saturated Water Vapor
50%
Sorption
50%
Transport Properties
50%
Water Evaporation
50%
Water Loss
50%
Water Recovery
50%
Water Vapor
100%
Engineering
Anion Exchange Membrane
50%
Applicability
50%
Chemical Separation
50%
Driving Force
50%
Dry Air
50%
Energetics
100%
Energy Engineering
50%
Global Warming
50%
Mass Transfer
50%
Membranes Separation
50%
Mols
100%
Relative Humidity
50%
Saturated Water
50%
Chemical Engineering
Carbon Dioxide
100%
Mass Transfer
50%
Membranes Separation
50%
Sorption
50%